It will be having different temperature, but same thermal energy and same temperature, but different thermal energy
Yes.
If you have two objects of the same mass, same material, and same temperature, the objects will have the same thermal energy.
no they cannot
dew point
the specific heats of the substances are identical the particels will not react chemically the substances have equal theraml energies the substances have equal temps hop it helped sorry if it didnt
"Heat" doesn't refer to the temperature, but to the amount of thermal energy - for two substances of the same type, that would basically be the temperature multiplied by the mass. (For a more detailed analysis, you would also have to consider latent heat for phase changes, and an object's specific heat.) First, heat and temperature are not the same thing, a common misconception. All matter has what is called a "Specific Heat" (c) which is the amount of energy needed to raise its temperature by one degree Kelvin. Water for instance has a specific heat of 4181 J/(kg*K). (joule per kilogram per degree kelvin)
This is a mixture.
No
The meaning is that these two substances cannot react.
specific heat
Of those two substances, water has.
yes your mum had heat transfer with your dad
Difference in desity of the matrials the objects are made of.
Specific heat is dimensionless, and dimensionless units have the same value in any system. Specific heat is the ratio between two densities - that of the substance considered, and that of water. The ratio of two quantities of the same dimension will naturally be a dimensionless number.
Until the two substances reach the same temperature.
true
the answer is conduction because it transfers heat between two substances that are in contact.
the specific heats of the substances are identical the particels will not react chemically the substances have equal theraml energies the substances have equal temps hop it helped sorry if it didnt
Because two objects' material has different specific heat capacity. Water seems having the highest specific heat capacity. 4180 J/kg/K
Simply heat the mixture. Given that they have different boiling points, one will evaporate before the other and thus you will have two separate substances
Specific heat capacity